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Confluences are common components of all riverine systems, characterized by converging flow streamlines and the mixing of separate flows. The fluid dynamics of confluences possesses a highly complex structure with several common types of flow features observed. A field study was recently conducted in the area of the confluence of the Negro and Solimões/Amazon Rivers, Brazil, collecting a series of Acoustic Doppler Current Profiler (ADCP) transects in different flow conditions. These data were used to investigate the morphology of the bedforms observed in that area. First, the bedforms were mostly classified as large and very large dunes according to Ashley et al. (1990), with an observed maximum wavelength and wave height of 350 and 12 m, respectively. Second, a comparison between low flow and relatively high flow conditions showed that wavelength and wave height increased as the river discharge increased in agreement with previous literature studies. Third, the lee side angle was consistently below 10°, with an average value of about 3.0°, without flow separation confirming past findings on low-angle dunes. Finally, a comparison between the bedform sizes and past literature studies on large rivers suggested that while several dunes were in equilibrium with the flow, several largest bedforms were found to be probably adapting to discharge changes in the river.
Carlo Gualtieri; Ivo Martone; Naziano Pantoja Filizola Junior; Marco Ianniruberto. Bedform Morphology in the Area of the Confluence of the Negro and Solimões-Amazon Rivers, Brazil. Water 2020, 12, 1630 .
AMA StyleCarlo Gualtieri, Ivo Martone, Naziano Pantoja Filizola Junior, Marco Ianniruberto. Bedform Morphology in the Area of the Confluence of the Negro and Solimões-Amazon Rivers, Brazil. Water. 2020; 12 (6):1630.
Chicago/Turabian StyleCarlo Gualtieri; Ivo Martone; Naziano Pantoja Filizola Junior; Marco Ianniruberto. 2020. "Bedform Morphology in the Area of the Confluence of the Negro and Solimões-Amazon Rivers, Brazil." Water 12, no. 6: 1630.
Confluences are nodes in riverine networks characterized by complex three-dimensional changes in flow hydrodynamics and riverbed morphology, and are valued for important ecological functions. This physical complexity is often investigated within the water column or riverbed, while few studies have focused on hyporheic fluxes, which is the mixing of surface water and groundwater across the riverbed. This study aims to understand how hyporheic flux across the riverbed is organized by confluence physical drivers. Field investigations were carried out at a low gradient, headwater confluence between Baltimore Brook and Cold Brook in Marcellus, New York, USA. The study measured channel bathymetry, hydraulic permeability, and vertical temperature profiles, as indicators of the hyporheic exchange due to temperature gradients. Confluence geometry, hydrodynamics, and morphodynamics were found to significantly affect hyporheic exchange rate and patterns. Local scale bed morphology, such as the confluence scour hole and minor topographic irregularities, influenced the distribution of bed pressure head and the related patterns of downwelling/upwelling. Furthermore, classical back-to-back bend planform and the related secondary circulation probably affected hyporheic exchange patterns around the confluence shear layer. Finally, even variations in the hydrological conditions played a role on hyporheic fluxes modifying confluence planform, and, in turn, flow circulation patterns.
Ivo Martone; Carlo Gualtieri; Theodore Endreny. Characterization of Hyporheic Exchange Drivers and Patterns within a Low-Gradient, First-Order, River Confluence during Low and High Flow. Water 2020, 12, 649 .
AMA StyleIvo Martone, Carlo Gualtieri, Theodore Endreny. Characterization of Hyporheic Exchange Drivers and Patterns within a Low-Gradient, First-Order, River Confluence during Low and High Flow. Water. 2020; 12 (3):649.
Chicago/Turabian StyleIvo Martone; Carlo Gualtieri; Theodore Endreny. 2020. "Characterization of Hyporheic Exchange Drivers and Patterns within a Low-Gradient, First-Order, River Confluence during Low and High Flow." Water 12, no. 3: 649.